Series-2 (May – June 2026) May – June 2026 Issue Statistics
- Citation
- Abstract
- Reference
- Full PDF
| Paper Type | : | Research Paper |
| Title | : | Improving the Performance of the Biocomposites Based on Starch and Rubber by Reinforcing with Cellulose Nanofiber |
| Country | : | Bangladesh |
| Authors | : | Md. Shamim Reza || Pran Krishna Das || Md. Minhaz- Ul Haque |
 |
: | 10.9790/ 264X-1203020107  |
Abstract: Sustainable biodegradable material development has received great attention as an alternative to the petroleum-based plastic. The films of the biocomposite material were fabricated by solution casting technique in this study and the reinforcement was cellulose nanofibers (CNFs). The structural, mechanical, thermal, optical and moisture-related properties of the CNF....
Keywords: Cellulose nanofibers, Starch/Rubber composites, Biodegradable film, Sustainable packaging matrials.
[1]. Yin, Y., & Woo, M. W. (2024). Transitioning of petroleum-based plastic food packaging to sustainable bio-based alternatives. Sustainable Food Technology, 2(3), 548-566.
[2]. Singh, N., Ogunseitan, O. A., Wong, M. H., & Tang, Y. (2022). Sustainable materials alternative to petrochemical plastics pollution: A review analysis. Sustainable horizons, 2, 100016.[3]. Phiri, R., Rangappa, S. M., Siengchin, S., Oladijo, O. P., & Dhakal, H. N. (2023). Development of sustainable biopolymer-based composites for lightweight applications from agricultural waste biomass: A review. Advanced Industrial and Engineering Polymer Research, 6(4), 436-450.
[4]. Pawase, P. A., Pathare, A. M., Bashir, O., Saleem, F., Shrama, E., Mudgal, S., & Ahmad, M. (2025). Physical, chemical, and nano-enabled modifications of starch for sustainable food packaging films: recent trends, challenges, and prospects. Carbohydrate Polymer Technologies and Applications, 100986.
[5]. Arruda, T. R., Machado, G. D. O., Marques, C. S., Souza, A. L. D., Pelissari, F. M., Oliveira, T. V. D., & Silva, R. R. A. (2025). An overview of starch-based materials for sustainable food packaging: recent advances, limitations, and perspectives. Macromol, 5(2), 19.
- Citation
- Abstract
- Reference
- Full PDF
| Paper Type | : | Research Paper |
| Title | : | Bioactive Seed Oil Compounds Targeting Dihydroorotase for Skin Cancer Management Via In-Silico |
| Country | : | Nigeria |
| Authors | : | Masaudat Adeola Adebayo || Olaniyi Temitope Adedosu || Jelili Abiodun Badmus || Emmanuel Olutunde Olagoke || Omolara Omowumi Babalola || Daniel Oladayo Afolabi || Joel Adetayo Akinboro |
|
: | 10.9790/ 264X-1203020820 |
Abstract: Background: The identification of novel, less toxic anticancer agents remain a critical priority, particularly for malignancies such as skin cancer, where rapid cellular proliferation is sustained by enhanced nucleotide biosynthesis. This study investigated the phytochemical composition and anticancer potential of seed oils from Cocos nucifera, Vitellaria paradoxa, and Citrullus lanatus, with a specific focus on targeting human dihydroorotase (HDE),....
Keywords: Phytochemical profiling; Seed oils; Human dihydroorotase; Molecular docking; ADMET prediction.
[1].
Sung, H., Ferlay, J., Siegel, R. L., Laversanne, M., Soerjomataram, I., Jemal, A., and Bray, F. (2021). Global cancer statistics 2020. CA: A Cancer Journal for Clinicians, 71(3), 209–249.
[2].
Dagogo-Jack, I., and Shaw, A. T. (2018). Tumour heterogeneity and resistance to cancer therapies. Nature Reviews Clinical Oncology, 15(2), 81–94.
[3].
Vasan, N., Baselga, J., and Hyman, D. M. (2019). A view on drug resistance in cancer. Nature, 575(7782), 299–309.
[4].
Warburg, O. (1956). On the origin of cancer cells. Science, 123(3191), 309–314.
[5].
Hanahan, D., & Weinberg, R. A. (2011). Hallmarks of cancer: The next generation. Cell, 144(5), 646–674